opnfvsdn=nosdn
opnfvtype=nonha
-openstack=liberty
+openstack=mitaka
opnfvlab=default
-opnfvrel=b
+opnfvrel=c
+opnfvfeature=none
+opnfvdistro=xenial
+opnfvarch=amd64
read_config() {
opnfvrel=`grep release: deploy.yaml | cut -d ":" -f2`
}
usage() { echo "Usage: $0 [-s <nosdn|odl|opencontrail>]
- [-t <nonha|ha|tip>]
+ [-t <nonha|ha|tip>]
[-o <juno|liberty>]
[-l <default|intelpod5>]
- [-r <a|b>]" 1>&2 exit 1; }
+ [-f <ipv6,dpdk,lxd,dvr>]
+ [-d <trusty|xenial>]
+ [-a <amd64>]
+ [-r <a|b>]" 1>&2 exit 1; }
-while getopts ":s:t:o:l:h:r:" opt; do
+while getopts ":s:t:o:l:h:r:f:d:a:" opt; do
case "${opt}" in
s)
opnfvsdn=${OPTARG}
r)
opnfvrel=${OPTARG}
;;
+ f)
+ opnfvfeature=${OPTARG}
+ ;;
+ d)
+ opnfvdistro=${OPTARG}
+ ;;
+ a)
+ opnfvarch=${OPTARG}
+ ;;
h)
usage
;;
sudo virt-install --connect qemu:///system --name node4-control --ram 8192 --vcpus 4 --disk size=120,format=qcow2,bus=virtio,io=native,pool=default --network bridge=virbr0,model=virtio --network bridge=virbr0,model=virtio --boot network,hd,menu=off --noautoconsole --vnc --print-xml | tee node4-control
- sudo virt-install --connect qemu:///system --name node5-compute --ram 8192 --vcpus 4 --disk size=120,format=qcow2,bus=virtio,io=native,pool=default --network bridge=virbr0,model=virtio --network bridge=virbr0,model=virtio --boot network,hd,menu=off --noautoconsole --vnc --print-xml | tee node5-compute
-
node3controlmac=`grep "mac address" node3-control | head -1 | cut -d "'" -f 2`
node4controlmac=`grep "mac address" node4-control | head -1 | cut -d "'" -f 2`
- node5computemac=`grep "mac address" node5-compute | head -1 | cut -d "'" -f 2`
sudo virsh -c qemu:///system define --file node3-control
sudo virsh -c qemu:///system define --file node4-control
- sudo virsh -c qemu:///system define --file node5-compute
controlnodeid=`maas maas nodes new autodetect_nodegroup='yes' name='node3-control' tags='control' hostname='node3-control' power_type='virsh' mac_addresses=$node3controlmac power_parameters_power_address='qemu+ssh://'$USER'@192.168.122.1/system' architecture='amd64/generic' power_parameters_power_id='node3-control' | grep system_id | cut -d '"' -f 4 `
maas maas tag update-nodes control add=$controlnodeid
- computenodeid=`maas maas nodes new autodetect_nodegroup='yes' name='node5-compute' tags='compute' hostname='node5-compute' power_type='virsh' mac_addresses=$node5computemac power_parameters_power_address='qemu+ssh://'$USER'@192.168.122.1/system' architecture='amd64/generic' power_parameters_power_id='node5-compute' | grep system_id | cut -d '"' -f 4 `
-
- maas maas tag update-nodes compute add=$computenodeid
fi
}
#copy the files and create extra resources needed for HA deployment
# in case of default VM labs.
deploy() {
+
+ if [ ! -f ./environments.yaml ] && [ -e ~/.juju/environments.yaml ]; then
+ cp ~/.juju/environments.yaml ./environments.yaml
+ fi
+
#copy the script which needs to get deployed as part of ofnfv release
echo "...... deploying now ......"
echo " " >> environments.yaml
echo " enable-os-refresh-update: false" >> environments.yaml
echo " enable-os-upgrade: false" >> environments.yaml
echo " admin-secret: admin" >> environments.yaml
- echo " default-series: trusty" >> environments.yaml
+ echo " default-series: $opnfvdistro" >> environments.yaml
cp environments.yaml ~/.juju/
createresource
fi
- cp ./$opnfvsdn/01-deploybundle.sh ./01-deploybundle.sh
- ./00-bootstrap.sh
+ #bootstrap the node
+ ./01-bootstrap.sh
- #case default:
- ./01-deploybundle.sh $opnfvtype $openstack $opnfvlab
+ #case default deploy the opnfv platform:
+ ./02-deploybundle.sh $opnfvtype $openstack $opnfvlab $opnfvsdn $opnfvfeature $opnfvdistro
}
#check whether charms are still executing the code even juju-deployer says installed.
timeoutiter=0
while [ $retval -eq 0 ]; do
sleep 30
- juju status > status.txt
+ juju status > status.txt
if [ "$(grep -c "executing" status.txt )" -ge 1 ]; then
echo " still executing the reltionship within charms ..."
if [ $timeoutiter -ge 60 ]; then
retval=1
fi
done
- echo "...... deployment finishing ......."
-}
+ status=`juju action do heat/0 domain-setup`
+ echo $status
+ juju expose ceph-radosgw
+ #juju ssh ceph/0 \ 'sudo radosgw-admin user create --uid="ubuntu" --display-name="Ubuntu Ceph"'
-#create config RC file to consume by various tests.
-configOpenrc()
-{
- echo " " > ./cloud/admin-openrc
- echo "export OS_USERNAME=$1" >> ./cloud/admin-openrc
- echo "export OS_PASSWORD=$2" >> ./cloud/admin-openrc
- echo "export OS_TENANT_NAME=$3" >> ./cloud/admin-openrc
- echo "export OS_AUTH_URL=$4" >> ./cloud/admin-openrc
- echo "export OS_REGION_NAME=$5" >> ./cloud/admin-openrc
- }
-
-#to get the address of a service using juju
-unitAddress()
-{
- juju status | python -c "import yaml; import sys; print yaml.load(sys.stdin)[\"services\"][\"$1\"][\"units\"][\"$1/$2\"][\"public-address\"]" 2> /dev/null
-}
-
-createopenrc()
-{
- mkdir -m 0700 -p cloud
-
- controller_address=$(unitAddress keystone 0)
- configOpenrc admin openstack admin http://$controller_address:5000/v2.0 Canonical
- chmod 0600 cloud/admin-openrc
+ echo "...... deployment finishing ......."
}
-if [ "$#" -eq 0 ]; then
- echo "This installtion will use default options"
- #read_config
-fi
-
echo "...... deployment started ......"
-#deploy_dep
deploy
+
check_status
-echo "...... deployment finished ......."
-echo "...... creating OpenRc file for consuming by various user ......."
+echo "...... deployment finished ......."
-createopenrc
+./openstack.sh "$opnfvsdn" "$opnfvlab" || true
+sudo ../juju/get-cloud-images || true
+../juju/joid-configure-openstack || true
echo "...... finished ......."
-
-